A person with schizophrenia cannot make the decision to have the BEAM surgery. The family has to make the decision and direct the person to have the surgery.
The best way to convince a person to try BEAM is to thoroughly understand it yourself. My book simplifies it; also posts on this website. BEAM works because there is a known cause of schizophrenia. Schizophrenia is caused by an imbalance in hormones in the Hypothalamus-Pituitary-Thyroid-Adrenal (HPTA) arc in the brain stem. When the hormones are imbalanced, a disruption in glucose-regulation occurs. This causes a malfunction in the cerebral distribution of dopamine. Too much dopamine is released into the limbic region of the brain.
Because too much adrenaline is produced in a schizophrenic person, adrenaline is blocked from reaching the HPTA arc and an imbalance occurs. and results in a disruption of glucose regulation. When blood adrenaline is blocked 100% through the BEAM surgery, the brain compensates and produces nor-adrenaline in sufficient quantities to reach the HPTA arc, and glucose is regulated. After BEAM surgery cerebral dopamine is distributed in the correct amount and the symptoms of schizophrenia are almost immediately eliminated a few days after the surgery.
Testimonials from people who have had the surgery in 2018 are on blog posts on this site, with contact information. There is also a Testimonials Page on my site with many testimonials.
The evidence for BEAM is 100% there. It is scientifically based and proven over 200 successful surgeries to be the only treatment that cures schizophrenia.
One patient, Anabelle, with a case study video in my film told me, “When I was 21, I wanted to take my life. Then my aunt contacted me saying she had learned about a treatment for schizophrenia that was curing the disease. I felt that I would rather die trying than not to try at all.”
Tell that to your child. To try it. It can only help and has no side effects. What is the alternative – to continue to live a life not worth living? Tell them that the treatment will get them off of antipsychotic drugs completely within one year and for that year put them on a much lower dose with one or two pills, not 13 or more prescribed by psychiatrists. All of their talents, personality characteristics and education before schizophrenia will be restored.
Change in Glucose level in the Brain
After BEAM, acetylcholine, ( an enzyme in the hypothalamus) has an
important role in the release of glucagon, which together with cortisol will
control the gluco-regulatory function of the hypothalamus-pituitary-thyroid
axis in the brain. This axis is an interconnection of neuron messages
that stimulate hormone release from the three glands in the brain stem.
Acetylcholine is widely distributed in the central nervous system and
is particularly implicated in memory circuits, the reward (“reward”) response
and extrapyramidal circuits, and the peripheral nervous system at
the level of the autonomic nervous system.
Changes to the Tyrosine Function
Tyrosine is a nonessential amino acid. In the brain, tyrosine is used to synthesize
a class of neurotransmitters known as catecholamine’s, which includes
adrenaline, norepinephrine, and dopamine. When adrenaline is eliminated
from the bloodstream and noradrenaline by 20 percent, the tyrosine chain
responds by producing the right amount of dopamine in the brain.
Changes to the Brain Neurons
BEAM produces a new neural oscillation (the act of regularly moving
from one position to another and back to the original position) and an
electrochemical change in the brain. The neuronal oscillation is an essential
part of the design of the brain. The neuronal oscillation facilitates
neural synaptic plasticity and consolidation of long-term information.
Neurons can generate action potentials in a sequence called multiple
spike trains that share results from changes in the electrical potential of
the membranes. These rail spikes are the basis for information transfer in
the brain and in the neural code. The spike trains can develop all kinds of
patterns, reversing rhythms, and often show oscillatory activity.
The oscillatory activity in individual neurons is also observed in subthreshold
fluctuations in membrane potentials. These rhythmic changes
in the membrane potential do not reach the critical threshold and therefore
do not give rise to the action of potential. They are synchronous
postsynaptic potentials that are intrinsic properties of the neuron.
Changes in the circadian rhythm of cortisol levels, enhanced synaptic
plasticity, plasticity dopaminergic, HPA axis functioning, and the autonomic
system is stimulated to function with another rhythm after BEAM
Cortisol, a hormone secreted by the adrenal cortex through a psychological
circadian rhythm, modulates plastic neuronal adaptation to
environmental stimuli during the day. Conversely, high levels of cortisol
during the day and night lead to a reduction of neuronal plasticity and
the inability of neurons to express and strengthen the synapses with emotional
and negative changes and affective and cognitive functions.
The change in cortisol rhythm is one of the successes of BEAM, resulting
from the disappearance of adrenaline. Cortisol changes the circadian
rhythm to regulate glucose with glucagon, and this promotes the
hypothalamic pituitary function. This corresponds to the physiological
changes that cause immediate responses in schizophrenic patients and
Parkinson patients submitted to BEAM.